Progressive cerebellar atrophy and polyneuropathy: Expanding the spectrum of PNKP mutations

Cathryn Poulton; Renske Oegema; Daphne Heijsman; Jeannette Hoogeboom; Rachel Schot; Hans Stroink; Michèl A. Willemsen; Frans W. Verheijen; Peter Van De Spek; Andreas Kremer; Grazia M.S. Mancini

doi:10.1007/s10048-012-0351-8

Progressive cerebellar atrophy and polyneuropathy: Expanding the spectrum of PNKP mutations

Cathryn Poulton, Renske Oegema, Daphne Heijsman, Jeannette Hoogeboom, Rachel Schot, Hans Stroink, Michèl A. Willemsen, Frans W. Verheijen, Peter Van De Spek, Andreas Kremer, Grazia M.S. Mancini^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

38 Citations (Scopus)

Abstract

We present a neurodegenerative disorder starting in early childhood of two brothers consisting of severe progressive polyneuropathy, severe progressive cerebellar atrophy, microcephaly, mild epilepsy, and intellectual disability. The cause of this rare syndrome was found to be a homozygous mutation (c.1250-1266dup, resulting in a frameshift p.Thr424GlyfsX48) in PNKP, identified by applying homozygosity mapping and whole-genome sequencing. Mutations in PNKP have previously been associated with a syndrome of microcephaly, seizures and developmental delay (MIM 613402), but not with a neurodegenerative disorder. PNKP is a dual-function enzyme with a key role in different pathways of DNA damage repair. DNA repair disorders can result in accelerated cell death, leading to underdevelopment and neurodegeneration. In skin fibroblasts from both affected individuals, we show increased susceptibility to apoptosis under stress conditions and reduced PNKP expression. PNKP is known to interact with DNA repair proteins involved in the onset of polyneuropathy and cerebellar degeneration; therefore, our findings explain this novel phenotype.

Original language	English
Pages (from-to)	43-51
Number of pages	9
Journal	Neurogenetics
Volume	14
Issue number	1
DOIs	https://doi.org/10.1007/s10048-012-0351-8
Publication status	Published - 1 Feb 2013
Externally published	Yes

Keywords

Cerebellar atrophy
DNA repair
MCSZ syndrome
Microcephaly
PNKP
Polyneuropathy

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10.1007/s10048-012-0351-8

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title = "Progressive cerebellar atrophy and polyneuropathy: Expanding the spectrum of PNKP mutations",

abstract = "We present a neurodegenerative disorder starting in early childhood of two brothers consisting of severe progressive polyneuropathy, severe progressive cerebellar atrophy, microcephaly, mild epilepsy, and intellectual disability. The cause of this rare syndrome was found to be a homozygous mutation (c.1250-1266dup, resulting in a frameshift p.Thr424GlyfsX48) in PNKP, identified by applying homozygosity mapping and whole-genome sequencing. Mutations in PNKP have previously been associated with a syndrome of microcephaly, seizures and developmental delay (MIM 613402), but not with a neurodegenerative disorder. PNKP is a dual-function enzyme with a key role in different pathways of DNA damage repair. DNA repair disorders can result in accelerated cell death, leading to underdevelopment and neurodegeneration. In skin fibroblasts from both affected individuals, we show increased susceptibility to apoptosis under stress conditions and reduced PNKP expression. PNKP is known to interact with DNA repair proteins involved in the onset of polyneuropathy and cerebellar degeneration; therefore, our findings explain this novel phenotype.",

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author = "Cathryn Poulton and Renske Oegema and Daphne Heijsman and Jeannette Hoogeboom and Rachel Schot and Hans Stroink and Willemsen, {Mich{\`e}l A.} and Verheijen, {Frans W.} and {Van De Spek}, Peter and Andreas Kremer and Mancini, {Grazia M.S.}",

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AU - Heijsman, Daphne

AU - Hoogeboom, Jeannette

AU - Schot, Rachel

AU - Stroink, Hans

AU - Willemsen, Michèl A.

AU - Verheijen, Frans W.

AU - Van De Spek, Peter

AU - Kremer, Andreas

AU - Mancini, Grazia M.S.

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N2 - We present a neurodegenerative disorder starting in early childhood of two brothers consisting of severe progressive polyneuropathy, severe progressive cerebellar atrophy, microcephaly, mild epilepsy, and intellectual disability. The cause of this rare syndrome was found to be a homozygous mutation (c.1250-1266dup, resulting in a frameshift p.Thr424GlyfsX48) in PNKP, identified by applying homozygosity mapping and whole-genome sequencing. Mutations in PNKP have previously been associated with a syndrome of microcephaly, seizures and developmental delay (MIM 613402), but not with a neurodegenerative disorder. PNKP is a dual-function enzyme with a key role in different pathways of DNA damage repair. DNA repair disorders can result in accelerated cell death, leading to underdevelopment and neurodegeneration. In skin fibroblasts from both affected individuals, we show increased susceptibility to apoptosis under stress conditions and reduced PNKP expression. PNKP is known to interact with DNA repair proteins involved in the onset of polyneuropathy and cerebellar degeneration; therefore, our findings explain this novel phenotype.

AB - We present a neurodegenerative disorder starting in early childhood of two brothers consisting of severe progressive polyneuropathy, severe progressive cerebellar atrophy, microcephaly, mild epilepsy, and intellectual disability. The cause of this rare syndrome was found to be a homozygous mutation (c.1250-1266dup, resulting in a frameshift p.Thr424GlyfsX48) in PNKP, identified by applying homozygosity mapping and whole-genome sequencing. Mutations in PNKP have previously been associated with a syndrome of microcephaly, seizures and developmental delay (MIM 613402), but not with a neurodegenerative disorder. PNKP is a dual-function enzyme with a key role in different pathways of DNA damage repair. DNA repair disorders can result in accelerated cell death, leading to underdevelopment and neurodegeneration. In skin fibroblasts from both affected individuals, we show increased susceptibility to apoptosis under stress conditions and reduced PNKP expression. PNKP is known to interact with DNA repair proteins involved in the onset of polyneuropathy and cerebellar degeneration; therefore, our findings explain this novel phenotype.

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Progressive cerebellar atrophy and polyneuropathy: Expanding the spectrum of PNKP mutations

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Keywords

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